Measuring instrument



- July 26, 1938.

C.' S. EVANS MEASURING INSTRUMENT Filed May V24, 1935 2 sheets-sheet 1 Patented July 26, 1938 UNITED STATES PATENT oFFlc-E MEASURING INSTRUMENT Y Charles S. vans. Oakland, Calif. Application May 24, 1933, Seriall No. 672.648H

20,1 claims. (o1. 33 111) The invention relates to alinear measuring instrument; vand the broad object of the invention is the provision, in one instrument, of a plurality of instantly available, easily legible scales.

In a more restricted sense, the invention has among its objects, the provision of ameasurng scale in which the graduations are spaced at intervals such as to permit ready use without eye strain, and in which the graduations may be given selected Values so that but a single selected legible scale is before the eyes at any given period of use; and an instrument by which is avoided the confusion and waste inherent in an instrument in which the scale to be used is one of several exposed according to lthe position of the scale on the paper.

'I'he invention possesses otherobjects and features of advantage, some of which, with the foregoing, will be set forth in the followingy description of my invention. lIt is'to be .understood that I do not limit myself to this disclosure of Aspecies of my invention, fas I may adopt variant embodiments thereof within the scope of the claims.

Referring to the drawings: Figure 1 is a side View, partly in section and partly in elevation, showing a form of measuring instrument embodying the vimprovements of my invention; and

Figure 2 is a transverse verticali sectional view of the same taken in a plane indicated'by the line 2 2 of Figure 1. l f Figure 3 is a plan View of the instrumenttaken in the direction of the arrow 3 of Figure 1 and Figure 4 is an end View of the same. rFigure 5 is a side view,v also partly in section and partly in elevation, showing another form of instrument embodying my invention; the central portions of the instrument being omittedto shorten the View; and y Figure 6 is a transverse vertical ksectional View of the same, taken in a plane indicated by theV line 6-6 of Figure 5V.

Figure 7 is a fragmentary side elevational view showing the end portions of .the vinstrument of VFigure 5; and,`

Figure 8 is a transverse verticalsectional view of the latter form of instrument, taken in a plane indicated by the line- 8 8 ofFigure 5.

Figure 9 is a transverse vertical sectional view of another form of instrument embodying my invention.

Figure 10 is a fragmentary side elevational view of still another embodiment of my instrument; and

Figure 11 is an end view of the same. Figure 12 is a side view,'partly inV section and partly in elevation, of a further embodiment of 5 my instrument, with Vthe central portions of the instrumentomitted to shorten the view; and

Figure 13 is a Vertical sectional View of the same, ltaken in aplane indicated by-thelin'e Y l3-l3 of Figur'e112. v Y 10 Figure '14 is an elevational View s howing the yinternal construction rvof the instrumentiillusrtrated in Figures 12 and 13; the central -portions `of these structural elements `also being omitted 4toshorten the View. v

Figure 15 is a side elevationalview, with central portions omitted, of still another embodiment of my invention;` and Figure 16 isa transverse vertical sectional ViewV of the same, taken lin the plane 'indicated'by the f2() line lli-I6 of Figure 15.

Figurel'l -isA a transverse vertical sectional `view Jof anotherform of instrument embodying the improvements of my invention." Y

v Figures` 18 and 19 .are diagrammaticviews 125 showing the relation between scale facesv of vthe instrument shown in Figure land the several series of indicia which appear on the at surfaces of'the star-shaped rotor of that instrument; and

Figures 20 to 23 are diagrammatic views show'- '30 ring the 4fixed scalsappearing on the form of .instrument showndn'. Figure :1. if"

FigureV 24V is a'di'agrammatic 4'view similar to that of Figures Y18 4and 19, but 4showing vother scale evaluations.

Figures 25, 26 andf2'7 are diagrammatic views showing anctherarrangement of vthe scales and evaluating indicia, particularly adapted for the instruments shown in Figures 6 and 13. VIn termsof broad inclusion, the measuring in- 40 strument of Vmy invention' 'comprises anA elongated bloclror shell having edges on which graduationsare disposed. The graduations are .se-` lected to conform with spaceilengths represent- Y r ing desirable ,parts lor multiples of a linearV unit, and different combinations of these graduations .appear on diiferent edges.r The block or Yshell is broadly triangular orrhomboidal in transverse section, andboth sidesfof the same edgefmay be gra@mationsY by ro- Y the complete block or r shell as shown in Figure 2r is that of anV equilateral triangle in transverse section, with a cylindrical recess 1 extending lon-r Y gitudinally through the block and opening on each of the upper sides B and 9 in'long'a'perture's- -I"I i and I2 respectively, the edges of which are parallel to theV edges I3, I4 and I5 of the block. This construction leaves the bottom side I6 intact. r Journaled in the end plates for rotation in the recess 1 is a rotor II, shaped sothat aV transverse section .has the,4 outline ofax.reg1.ilar six-point star. This provides twelve flat surfaces I8 on the rotor; andthe .proportionof` parts islsuch that Atwo of these surfaces arevexposed inieach of the Aapertures II and I2, the edges of the rotor lying closely adjacent the aperture edges. i' rlfhe journals' I9v on whichv the rotor is mounted are extended through,v ,the rvend plates, andv are provided with '.knurled,4 sleeves or knobs 2I so that the rotor may be readily `turned' with the lingers. Between oneofzthe sleeves and the `ad jacent; plate;l is interposed a spring-pressed pin ,2 2, adapted toseat in shallowldepres'sions in the gplate. Thedepressions :are so vspaced that'when engaged by the pinthe rotoredges are always aligned with *tnefaperturef-.edges as Vshovvn in Figure 2. Unintended `rotation rof the :rotor is thus avoided.A Of course thisfrotorimigntcbe hex'- agonalfin section,lbut the starshape is preferred 4because/it provides; abetterlocation for. the' ina @@Disposed'on the :upperrand bottom sides 8, 9 and ,I6,'iadjacentl the vfedges lI3,I4 and I5, are graduations representing'variousscales:V The ar'- ;rangement of scales is open to wide variation, but a convenient :arrangement'places the scale 23, Figure 18, on the side-.8, adjacent the edge I5; andthe scale-24,-F,igure 19,on the sid'e9 adjacent the edge I4." In Figures 18and19,` the graduated edges orascales 23rand=24 are shoWn-;1and.;below ,each in diagramar'e shownlthesix indicia=bearf ing faces I8 ofthe rotorfwhichfserve each scale,

' .eachface bearingfits; own designation 25, Which of` the fiat surfaces is to be read-in inches in 'the-present embodiment. I

The scale 23 is a composite one,'zthe long gradu- .ations-extending across the Tscale face dividing it into spaces grouped inthe followingorder, `reading from the -left zv space 26,y representing-" f set off to the leftfof the graduation 4line'21 and divided 4into,` sixteen partsbythe shortglines as shown. ,To the right, graduat ions -28,-29,.30, 3|, etc. divide 4the .edgenfnto incrementso eachJOnone 4 'Y IB--of thefrotor are` disposed indicia 32V c or'nprising` numbers Q, 1, 2, 3, 4, etc.

in registry with thefgaduationsflffl, 28,19, 30"31., l

etCf, .Sothat distancesmay,belreadily"read or set frame ,right pnfjeraduaoog2i. vami space@ This space isjv divided into sixteen right beingj marked b yvgraduations 36,' 31, etc. kIndicia `4Ugfor evaluating this scale arearranged on' another of the rotor'faces I9. V'The left half spaces, the

of the space 34 is further subdivided to provide the fractional parts of the 5/8 scale asshown, the graduations 35, 38, 36, 39, 31, 4I, etc. marking 5/3 incrementsto the right'of the 0 line, 28. A diamond-shaped mark 42 on the rotor marks the left end of the fractional vdivision space of each scale, except the t scalewhich terminates at the end of the scale bar.` It is to be noted that the space between graduations ZIand 33 is ,-16", the difference between the gg and the %"cspaces; and that Vby use of this dead space between the fractional division graduation lines o-f both scales either coincide, as in line 28, or fall at regularly spaced intervals' as in lines k3,5 and 29, 38 and 30, etc.

Y This expedient permits the arrangement of many scales"togetherV on the same edge without confu- .sion orjlthe' spacing of graduations. at irregular intervals .or so close as to make reading Without confusionand strain impossible.

1 Graduation35 also marks the beginning of :the fractional division spacevo'f the 1A?" scale, vthe -0 lineV being graduation 43, and increments ofi/2 `each being marked by graduations, 44, 45,46, etc.

Scales representing 1/4" andg are alsogarranged as shown. vDetailed explanation of these scales isunnecessary in view of the explanation already given, it being remembered that for each v The graduationsjust explained comprising the scale', 23,1Figurev18, areV arranged onthefside B rHearftheedge I5.'Thegraduations shown in Figure 19 comprising thescale. 24,1 are preferably arrangedonthe side`9, adjacent the edgevl4; On *y the 'samefside .adjacent the top-edgeV .I3,"is arranged a,1'., and Y2" scale 5|,fl5igu're 20;;ythe fgraduations, 52 Vconstituting Vthe fractional division space of the 1' scale andthe graduations 53,

, 54, 55, etc. marking out thewhole units `tofthe right of the .0 line56. The Ygraduations y5'I together with graduations 52 constitute the fractional division spacel of the V2"' scale,fex

'tending'to the leftof the' graduationv` 53, the

:whole units extending to the right` and beingv defined by the graduations r55, .58, etc. These graduations are evaluated by two rows 6I .and 62 `of indiciai63 as: shown; and since the top edge scales .are not servedbythelrotor, theserows `of indicia l are printed directly upon the side.l of theinstrument. On'theoppo'site `side iixadjacent the `top 'edge I3, the scales and evaluatingrows of indicia shown in Figure 21 are disposed, the graduations vI54being`spaced to givethe 11/2" and the 1 scales which arey evaluated by the indicia 65 as already Y explained in connection with Figure 20. It-will .b enotedcthat'a 1'! scale'is,includedloneach side of the top edge I3, so that- .irrespective o-f Vwhat 1ableby ,merely turning: the instrumentover on its side withoutdisturbance offthe roto'rvsetting. Y

the and'tl'ie-Y scales are" not in frequent user they may be. disposed Qn the. betto'm face. aid-A jacent the edgesfNMandy I5 respectivelyfff'hey y will appearA asv shown in Figures 22 and 23:. kIt willof coursebe'understood that"a great many other arrangements of scales may be made, those illustrated'b'eing merely typical.

Scaleissettuponthe rotor, `the 1" scaleisavail- In Figure `24 is shown diagrammatically, the

:rotor 'faces I8 bearing indicia I'forV evaluating the graduations on the scale 61 which is shown divided into fractional parts of feet, constituting a scale preferred by architects. In this case the use of detached short lines 68, is useful to the eye in reading certain of the graduations. Explanation previously given will make the applica# tion and use of this scale clear. y

From the foregoing, the-construction indicated by Figures 9,` 11, 16 and 17 willneed little or no explanation. In Figure 9 is'shown a cross sectional view through an instrument in which the rotor 15 is cylindrical. 'I'he indicia to evaluate the graduations on the scale edge 16 are arranged on the cylinder in lines or groups visible through the aperture 11 between hood 18 and body 19. The straight edge may be provided with a fixed scale if desired.

In Figures 10 and 11 are'shown an instrument in which the scale bar 82 may have graduations on both faces. End plates 83 enclose the octagonal rotor 84, on each facey 86 of whichare two rows of indicia, each row inverted relative to the other, so that the graduations on each scale face are evaluated by indicia closely adjacent the upper or inner edge of the scale face. The rotor is provided at each end with a trunnion 481 connected by spring 88 with the screw 89 securing the end plate to the scale bar. The spring and trunnion lie in a recess in the end plate, and two faces of the rotor seat in a complementary socket in the rear face of the scale bar, so that in position of use the rotor and b'ar'are in effect a unit, while permitting quick and easy adjustment of the rotor to evaluate the graduations on the scale bar in accordance With need. Eight differ-` ent scales in each scale face, or sixteen in all, are available in this instrument. n

In Figure 16 is shown a construction similar to that of Figure 9 except that the rotor is in the form of an endless band 90 mounted on Vrolls 9| on the larger of which the knurled( handle 92 pro` vides means for setting up the desired indicia for the scale onthe scale face 93. Y

Figure1'1 shows a structure in which the rotor 94 is cylindrical, the indicia appearing in double rows, inverted relative to each other, between the scale faces 95 and 96. 'I'he opposite faces 91 may be provided with any desired xed scales. Screws 98 set in the body of thev block secure theendA plates in which the rotor is journaled. i

In Figures 5 to 8 inclusive is shown a type of instrument having the great advantage of a large number of scales 'immediately available without the need for reversal end for end and `without graduations on the scale faces being confusingly close. A long central core or block I 0I is provided with scale bars |02 so that an instrument having an equilateral triangle sectionv results. The shape of the parts is such that a cylindrical chamber |03 is left adjacent each of the three scale faces |04; and in each chamber is mounted arotor |06 having, say four indicia bearing surfaces IIJ1, for giving values to the graduations on the adjacent scale face. Thuseach scale face is graduated for but four scales which gives twelve scales instantly available, with only clockwise rotation of the rotors or whole instrument.` Of course the rotors may be shaped to carryV more groups of indicia if desired so that a very wide range of scales is possible in the one instrument.

Means are provided for the separate or simultaneous control of the three rotors. Each rotor is journaled in the end plates" |08 and |09, and at one end is providedrwith a control knob or handle III, between which and the end plate is arranged Vjustecl position. A hood |34 the spring-pressed pin I|2 for resiliently retaining the rotor in adjusted position; At the other end of the instrument,`the end plate is extended into a hub I|3 in which the shor-t shaft I|4 is journaled. On the outer en'd of this shaft is the knurledwhandle I I 6, and on the inner end a drivling gear II1 normallyin mesh Vwith three reversing gears H8, always in mesh with gears H9 fixed on'the ends of the rotors, so thatV rotation of the handle II6 effects simultaneous and equal rotation of the three rotors in the same direction preferably clockwise as seen in Figure 6.

The inner end of the hub is recessed so that the shaft vI I4 and gear ||1 may be drawn intothe hub out of mesh with the reversing gears. A spring |2| normally resists this movement. When the gear is disengaged, the handle may be turned slightly to seat the inner end of the handle on the pin |22 xedin the hub, thus holding the driving gear out of engagementand permitting separate movement of the rotors. A longitudinally extending groove |23 in the handle III:` permits the outward movement of the handle, and the annular groove I 24 permits turning of the handle when the gears are in their normal position of engagement.

When the several rotors are locked for rotation together, the indicia presented to the scale faces in a given position of the rotors are indicated by'indexing notations appearing on the drum of the' handle I I6 and visible -through suitable apertures |26 provided in a shield I 21 mounted on the end plate |08. Convenient scales for this type of instrument are shown in Figures 25, 26 and 27, and will be described in connection with the construction shown in Figures 12 to 14 inclusive to which they are also applicable.

Figures 12 to 14 show a form of instrument in which a shaft |28, carrying a plurality of pivctally mounted indicia bearing blades |29, is

yjournaled in a recessed block |39 having a scale face IBI. Rotation of the shaft-.|428 is effected by a knob |32 ycarrying Va spring-pressed pin |33, seating in suitable sockets arranged about the block I 30,for resiliently fixing the rotor in adis provided on the block I 30, enclosing the back of the blades |29,

.and terminating in a downturned lip|35, spaced from the forward or scaleface ISI of the block |39. The lip, |35 provides a stop against which the blades are held prior to dropping down into their operating outer edge lies snugly in a rabbet formed in the upperedge of the scale block I3 I, as shown in Figure 13. In order to insure movement ofthe blades into their operating position when the rotor is turned and to hold them in the latter position, each is provided with a very'light spring I 35, as best shown in Figure 14. The thrust of the blade against the block tends to impart a backward movement of the rotor, but this movement is prevented by the spring-pressed pin |33 and alsoby the direct thrust of other blades against the inside of the hood, as will be clear vfrom Figure 13. By Vthis arrangement, turning of the knob |32 causes! the indicia carrying blades |29 to snap, one after another, into registration with the scale face I3I. 'A

.In orderto avoid a closespacing of graduations on the scale bar, especially in the fractional division spaces, the scale bar portion of the block |39 is provided, preferably at the left -end considered from the position of use, witha rotatable section |38, xedjon the pin |39, journaled in the block ina recess formed therein for the purpose.

position on the block, where theV ample the' fractional divisions on fractionalV divisions I42I43,and |44 appear to the Y leftof the graduation I4I andfonL the three scale faces ofithe rotatablejsection ofthe scale; bar. ByY grouping the fractional divisions as shown, with dead spa'cesgIB as needed, all confusion of lines in the fractional division is `avoided.

On the xed scale faceto the right of the graduation I4I,the graduations are not closer i than andeach'ofthe series of indicia are scale which isavailable order 'to provide a 1" at all times, .the xed scale face is provided with xed indicia |41 spaced at l intervals from the graduation I4I las shown. The first space iis subdivided into 16ths and'this constitutes the fractional division Vfor the inch scale. As applied to the construction shown in Figure 13,` the'graduations lof the xed scale face will appearvas shown in Figure 25..

yVIVhile it isv quite obvious in practice that the indicia exposed either do ror donot match up with fractional divisions on the active scale face, thus indicating when therotatable section must be adjusted, identicalmarking of the indicia bearing surfaces 'and' the related scale face maybe provided, such for example as a symbol IAB. .If desired the indicia groups on the blades may be arranged-in the order of magnitude, that isffrom smallest to largest scale, in whichA case, forexone edge of the rotatable section would be .those vpertaining to the1/8.,f%,",vv 1/4" andv Tse" scales. Theseare laid. out by applying-the principles already prereadily 'applied to it.' 'In sented; that is,.laying outl the fractional divisions y unified control may bel such` that Y 26 and k27.

z as special conditions require.,

- Y ,l ment providing. twelve to to the Vleft of a Zero graduation, `beginning with the smaller divisions so that the larger maystep over them and interposing cure coincidence'of graduation lines, or keep them recognizably separated. v f' Y i The scales if-Figures 25, 26 encarar@ especially' adapted forthe construction shown in Figure 6, in` which the'gear connection of the rotors for the 1/81 'Lll and f 1/4' scale evaluations are exposed simultaneously on the Ysurfaces |01 ofthe three rotors. The remaining values are then successively exposedin groups of three,'by turning thev knob IIB, thus'%, and fgf; then 1/2", Tse" and 5/g";v then 3A and T73. v Allof thescales are thus available successively by clockwise rotation of the wholeinstrument or ofthe `co-ntrol knob IIE. In this typerof scale, the graduations on'=the three scale'facesl I04-may correspond with the graduations shown in Figures 25, It vwill be clear'of course that many other s'cale-v groupings andvalues maybe applied Those explained arevmerely illustrative. Itiwill be Yclear from the above thataninstrusixteen Vfractional and multiple scales, in addition to theinchscalaany of which arer instantly available, and readily legible, confers great facility in laying out draw-KV ings having a selectedr scale-ratio 'to other drawdead spaces tose- Y dividers, and'within the range of its xed inl crement capacity-just Vas accurate and effective.

Thus if the patent draftsmanv is given a blue,- print drawn to full scale, he can measure with the inch scale such parts as arenotdimensioned and" lay off another. drawing at `any scale to rfitY the space available. sketchV is drawn to'any fractional scale approximating-the values of the instrument; the full size dimensions may be read directly, and in almost 'a simultaneous operation, laid off in a drawing of another selected scale. scale of 1/Z'to l, too large for use,.may be set off anew at aiscale of 1% to 1; it being necessary only tor reada value on one scale and set it off on the other. In `many combinations, both scales would be available without even movement of the rotor, These uses are ladditional to those commonlyattached to the draftsmans scale or set of scales.4 Y

Iclaimp. i' f i Y, `1. A `measuring instrument comprising a scale having graduations arranged thereonr in groups having different ratios to a linear scale, a rotor arranged adjacenty the scale, ranged on the rotor for giving a thefgraduations in each group.y f

. 2.. A measuring instrument comprising arblock linear, value to Yhaving la plurality of graduatedscales disposed v3, A measuring 4instrument comprisingv awblock `having a` plurality ofgraduated scales disposed thereon, a flat facedrotorjournaledonthe block,

andindicia disposed on theflat faces of the rotor` Y for labeling thescale graduations.

Again if ,the blueprintbrv and indiciaY -ar-` 4. A measuring instrument comprisingl ablock having agraduatedscale disposed thereon, amrotor journaled on theblock, pressure. applying` means for lightly retaining therotor in position,

and indicia disposed on-the.4 rotor vfor Vlabeling the graduations in linear units.

5. A measuring v Y prismatic block, a graduated vscale ydisposed on a longitudinal edge of thevbilock, means rotatable aboutvan'axis sufficiently parallell tosaid "edge, .pressure applying means interposed ybetweentlfie block-and rotatable means vfor retaininggtherotatable meansin position, `and indiciadispo'sed on saidk rotatable means forV labelingthe graduations in linearunits.

instrumentV comprising'- a` 6. A measuring instrumentcomprisingf an 1 elongated block of triangular. transverse section, graduated. scales on a plurality vof the edges of said block, a rotorjournaled within theblock andr having faces which in positions, of rest are i juxtaposed to resp-ective'graduated scales,and indicia disposed on the faces for labeling Vthe graduated scales in linear units.

l'7. A'` measuring instrument comprising a long disposed on edges of the block, a lplurality of surfaces mounted on theblock for movement into close proximity with the scales, and indicia on the surfacesfor labelingV the graduationsy y 8..A -measuring lnstrument comprisingfan Y Velongatedblock of triangular transverse section,

uate,thegraduatedscales Y -A 9. Inameasuring instrument a scale ',compri's- K s indicia disposed on the Vfaces of the rotor toV eval-` .60 i prismatick block, a vplurality .of graduated scales ing a zero graduation, graduations on one side of the zero graduation and defining a plurality of spaces representing values related to a linear unit, graduations for dividing such spaces into selected fractional parts, and graduations spaced across the scale from the inner end of each of said fractionally divided spaces to set oif on the scale face a plurality of overlapping series of spaces, and means bearing indicia for evaluating each of said series.

10. In a measuring instrument, a scale comprising graduations for defining a plurality of overlapping series of spaces, the spaces having values related to a linear unit and being equal in each series, graduations dividing one space in each series into fractional parts, and indicia for evaluating each of said series.

11. A measuring instrument comprising a straight-edge, a series of unlabeled graduating lines spaced along said edge and providing a scale, a second series of unlabeled graduating lines on said edge and superimposed on the first series of lines to provide a second scale, means coextensive with said straight-edge and movable with respect thereto, a row of indicia on the movable means for labeling the first series of lines in accordance with their linear scale value, and a second row of indicia on the movable means for labeling the second series of lines in accordance with their linear scale value upon movement of the means.

12. A measuring instrument comprising a block having an edge with a plurality of graduated. scales arranged thereon in groups having different ratios to a linear scale, means movable with respect to the scales and having a Series of indicia arranged thereon to give a linear value to the graduations in each group when moved into juxtaposition therewith.

13. A measuring instrument comprising a prismatic block having at least one edge bounded by planes lying at an acute angle to each other, a series of graduations disposed on said edge, a rotor journaled on the block, and indicia disposed on the rotor for labeling the graduations in linear units.

14. A measuring instrument comprising an elongated block of triangular transverse section, a plurality of graduated scales on at least two of the edges of the block, a rotor journaled in the block adjacent each of the scaled edges, and indicia disposed on each rotor for labeling the graduated scales of the nearest scaled edge.

15. A measuring instrument comprising an elongated block of triangular transverse section, a plurality of graduated scales on at least two of the edges of the block, a rotor journaled in the block adjacent each of the scaled edges, indicia disposed on each rotor for labeling the graduated scales of the nearest scaled edge, and means for effecting simultaneous and correlated movement of the rotors.

16. A measuring instrument comprising an elongated block of triangular transverse section, a plurality of graduated scales on each of the long faces of the block adjacent corresponding edges thereof, a rotor journaled in the block adjacent each of the scaled edges, indicia disposed on each rotor for labeling the separate scales of the nearest scaled edge, means for effecting the simultaneous and correlated movement of the rotors, and indicating means for showing the setting of all of the rotors.

17. A measuring instrument comprising an elongated block, a straight-edge of equilateral cross section pivotally mounted in a long edge of the block and rotatable to provide three different edge-faces therefor, graduated scales on the edge-faces, means movable with respect to the straight edge, and indicia on the movable means for labeling the graduated scales of the straight edge.

18. A measuring, instrument comprising an elongated block, a straight-edge of equilateral cross section pivotally mounted in a long edge of the block and rotatable to provide three different edge-faces therefor, graduated scales on the edge-faces, a plurality of plates, means for moving the plates into and out of position relative to the straight edge, and indicia on the plates for labeling the graduated scales of the straight edge.

19. In a measuring instrument, a scale comprising graduations arranged to provide a space having the value of a fractional part of a linear unit, graduations arranged to provide a second space having the value of another fractional part of the unit and separated from the first space by a third space equal to the difference between the rst and second spaces, graduations arranged to provide series of spaces to the side of the combined i'lrst, second and third spaces and equal respectively to the rst and second spaces, and indicia for separately evaluating the series of spaces.

20. In a measuring instrument, a scale comprising graduations arranged to provide a space having the value of a fractional part of a linear unit, graduations arranged to provide a second space having the value of another fractional part r of the unit and separated from the rst space by a third space equal tothe difference between the first and second spaces, graduations arranged to `provide series of spaces to the side of the combined rst, second and third spaces and equal respectively to the first and second spaces, a plurality of surfaces mounted for movement into close proximity with the graduations, and indicia 0n the surfaces for labeling the graduations. CHARLES S. EVANS. 

